大兴安岭林区杆塔基础病害特征及防治措施

林峻岑, 张航, 李国玉, 苏安双, 高凯, 曹亚鹏, 陈敦, 王旭, 王淼

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森林工程 ›› 2025, Vol. 41 ›› Issue (03) : 646-656. DOI: 10.7525/j.issn.1006-8023.2025.03.021
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大兴安岭林区杆塔基础病害特征及防治措施

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Distress Characteristics and Countermeasures of Poles and Tower Foundations in the Da Xinganling Forest Region

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摘要

由基础病害造成的多年冻土区结构或构件失效将对林区生态安全构成一定威胁,为此通过对东北多年冻土区京漠线及中俄原油管道沿线附近林区的杆塔基础进行实地调查,分析总结其主要病害特征及现有防治措施并提出改进建议。调查结果表明,出现冻拔病害的输电线铁塔基础占18.1%,包括均匀冻拔(8.5%)和不均匀冻拔(9.6%),而出现融沉病害的基础仅占3.7%;混凝土基础表面出现裂缝(2.7%)、剥落(2.7%)、裂纹(4.3%)、侵蚀(5.9%)、倾斜(3.7%)和压裂(0.5%)等病害;基础不均匀冻拔与倾斜对铁塔安全影响较大;混凝土保护帽冻害严重,主要表现为裂缝(15.4%)、剥落(8.5%)、裂纹(15.4%)和侵蚀(58%);冻拔和冻裂也是造成线杆倾斜和断裂倒塌的主要原因。针对以上基础病害问题,建议对冻土区域内的工程结构进行长期跟踪监测并完善改进现有处置措施。调查结果可为多年冻土区基础设施的设计、建造及病害防治策略提供重要的参考和借鉴,以期减弱工程对自然林区生态环境的影响。

Abstract

The failure of structures or components in permafrost caused by foundation diseases poses a certain threat to the ecological security of forest region. Based on field investigations of foundations of power foundations along the section Jagdaqi-Mo'he of Beijing-Mo'he national highway and China-Russia crude oil pipelines (CRCOPs) near the forest region in permafrost in Northeastern China, the main distress characteristics and countermeasures of the foundations were analyzed and summarized, and improved countermeasures were proposed. The results from field surveys showed that transmission line towers foundations suffered from frost jacking accounted for 18.1%, including uniform frost jacking (8.5%) and nonuniform frost jacking (9.6%), while foundations with thaw settlement occupied only 3.7%. Fissures (2.7%), spalling (2.7%), cracks (4.3%), erosion (5.9%), tilt (3.7%), and fracture (0.5%) occurred on the concrete foundation surface. The influences of nonuniform frost jacking and tilting had great influence on the safety of the tower. The concrete protective caps were more severely damaged by frost action, exhibiting fissures (15.4%), spalling (8.5%), cracks (15.4%), and erosion (58%). Similarly, the tilting and collapse of utility poles were primarily caused by frost jacking and crack. Based on the above damages, it is suggested to build long-term monitoring systems for tracking the structures in permafrost regions, improve and optimize the existing mitigative measures. The findings provide some references for the design, construction, and damage prevention of infrastructures in permafrost regions, aiming to mitigate the impact of engineering on the ecological environment of natural forest region.

关键词

大兴安岭林区 / 多年冻土区 / 基础 / 病害调查 / 防治措施

Key words

Da Xing'anling / forest region / permafrost regions / pole and tower / transmission line / foundations / distress investigation / mitigative measures

中图分类号

TU445

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导出引用
林峻岑 , 张航 , 李国玉 , . 大兴安岭林区杆塔基础病害特征及防治措施. 森林工程. 2025, 41(03): 646-656 https://doi.org/10.7525/j.issn.1006-8023.2025.03.021
LIN Juncen, ZHANG Hang, LI Guoyu, et al. Distress Characteristics and Countermeasures of Poles and Tower Foundations in the Da Xinganling Forest Region[J]. Forest Engineering. 2025, 41(03): 646-656 https://doi.org/10.7525/j.issn.1006-8023.2025.03.021

参考文献

列表( 原文顺序 | 文献年度倒序 | 文中引用次数倒序 ) 可视化分析
1
周幼吾,郭东信,邱国庆,等.中国冻土[M].北京:科学出版社,2000.
ZHOU Y W GUO D X QIU G Q,et al.Geocryology in China[M].Beijing:Science Press,2020.
本文引用 [1]
2
JIN X Y JIN H J LUO D L,et al.Impacts of permafrost degradation on hydrology and vegetation in the source area of the Yellow River on Northeastern Qinghai-Tibet Plateau,Southwest China[J].Frontiers in Earth Science202210:845824.
本文引用 [1]
3
HJORT J STRELETSKIY D DORÉ G,et al.Impacts of permafrost degradation on infrastructure[J].Nature Reviews Earth & Environment20223(1):24-38.
本文引用 [1]
4
李国玉,马巍,王学力,等.中俄原油管道漠大线运营后面临一些冻害问题及防治措施建议[J].岩土力学201536(10):2963-2973.
LI G Y MA W WANG X L,et al.Frost hazards and mitigative measures following operation of Mohe-Daqing line of China-Russia crude oil pipeline[J].Rock and Soil Mechanics201536(10):2963-2973.
本文引用 [1]
5
WANG G S YU Q H YOU Y H,et al.Problems and countermeasures in construction of transmission line projects in permafrost regions[J].Sciences in Cold and Arid Regions20146(5):432-439.
本文引用 [3]
6
DORÉ G NIU F J BROOKS H.Adaptation methods for transportation infrastructure built on degrading permafrost[J].Permafrost and Periglacial Processes201627(4):352-364.
本文引用 [1]
7
HJORT J KARJALAINEN O AALTO J,et al.Degrading permafrost puts Arctic infrastructure at risk by mid-century[J].Nature communications20189(1):5147.
本文引用 [1]
8
俞祁浩,温智,丁燕生,等.青藏直流线路冻土地基监测研究[J].冰川冻土201234(5):1165-1172.
YU Q H WEN Z DING Y S,et al.Monitoring the tower foundations in the permafrost regions along the Qinghai-Tibet DC Transmission Line from Qinghai Province to Tibetan Autonomous Region[J].Journal of Glaciology and Geocryology201234(5):1165-1172.
本文引用 [2]
9
周亚龙,王旭,蒋代军,等.青藏铁路接触网异型桩基抗冻拔模型试验研究[J].西南交通大学学报202359:1-8.
ZHOU Y L WANG X JIANG D J,et al.Experimental of anti-frost jacking model of grotesque pile foundations of overhead contact system mast of Qinghai-Xizang Railway[J].Journal of Southwest Jiaotong University202359:1-8.
本文引用 [1]
10
LI G Y YU Q H MA W,et al.Freeze-thaw properties and long-term thermal stability of the unprotected tower foundation soils in permafrost regions along the Qinghai-Tibet Power Transmission Line[J].Cold Regions Science and Technology2016121:258-274.
本文引用 [1]
11
ANDERSLAND B.Frozen ground engineering [M].New York City:John Wiley & Sons,Inc.,2003.
本文引用 [1]
12
蒋代军,王旭,刘德仁,等.青藏铁路多年冻土地基输电塔热棒桩基稳定性试验研究[J].岩石力学与工程学报201433(S2):4258-4263.
JIANG D J WANG X LIU D R,et al.Experimental study of stability of piled foundation with thermosyphons of power transmission tower along Qinghai-Tibet Railway in permafrost regions[J].Chinese Journal of Rock Mechanics and Engineering201433(S2):4258-4263.
本文引用 [1]
13
穆彦虎,马巍,牛富俊,等.多年冻土区道路工程病害类型及特征研究[J].防灾减灾工程学报201434(3):259-267.
MU Y H MA W NIU F J,et al.Study on geotechnical hazards to roadway engineering in permafrost regions[J].Journal of Disaster Prevention and Mitigation Engineering201434(3):259-267.
本文引用 [1]
14
陈敦,李国玉,牛富俊,等.喜马拉雅山区公路桥涵病害类型及特征研究[J].防灾减灾工程学报202343(1):18-31,59.
CHEN D LI G Y NIU F J,et al.Damage types and characteristics of highway bridges and culverts in the Himalayas of China[J].Journal of Disaster Prevention and Mitigation Engineering202343(1):18-31,59.
15
HE P F NIU F J HUANG Y H,et al.Distress characteristics in embankment-bridge transition section of the Qinghai-Tibet Railway in permafrost regions[J].International Journal of Disaster Risk Science202314:680-696.
16
CHAI M T MU Y H LI G Y,et al.Relationship between ponding and topographic factors along the China-Russia Crude Oil Pipeline in permafrost regions[J].Sciences in Cold and Arid Regions201911(6):419-427.
17
LIEW M XIAO M FARQUHARSON L,et al.Understanding effects of permafrost degradation and coastal erosion on civil infrastructure in Arctic coastal villages:a community survey and knowledge co-production[J].Journal of Marine Science and Engineering202210(3):422.
18
唐华,徐琳,格桑平措,等.藏西北革吉县雄巴乡场镇冻土灾害特征及防治措施[J].中国地质调查20229(2):100-109.
TANG H,XV L, GESANG P C,et al.Characteristics and prevention measures of permafrost disasters in Xiongba town of Geji County in northwestern Tibet[J].Geological Survey of China20229(2):100-109.
19
刘万福,曹阳,丛日立,等.我国高纬度多年冻土区电力杆塔常见冻害问题分析及治理措施[J].低温建筑技术201840(10):119-124.
LIU W F CAO Y CONG R L,et al.Study on the frost damage and its controlmeasures of the electric power tower foundation in high latitude permafrost regions in China[J].Low Temperature Architecture Technology201840(10):119-124.
本文引用 [2]
20
HE R X JIN H J LUO D L,et al.Changes in the permafrost environment under dual impacts of climate change and human activities in the Hola Basin,northern Da Xing’anling Mountains,Northeast China[J].Land Degradation & Development202233(8):1219-1234.
本文引用 [1]
21
YOU Y H YU Q H GUO L,et al.In-situ monitoring the thermal regime of foundation backfill of a power transmission line tower in permafrost regions on the Qinghai-Tibet Plateau[J].Applied Thermal Engineering201698:271-279.
本文引用 [1]
22
姜和平,刘兆瑞.冻土地区±500 kV直流输电线路地基与基础设计[J].内蒙古电力技术200624(4):1-4.
JIANG H P LIU Z R.±500 kV direct current transmission line ground and foundation design in frozen earth area[J].Inner Mongolia Electric Power200624(4):1-4.
本文引用 [2]
23
JIN H J HAO J Q CHANG X L,et al.Zonation and assessment of frozen-ground conditions for engineering geology along the China-Russia crude oil pipeline route from Mo'he to Daqing,Northeastern China[J].Cold Regions Science and Technology201064(3):213-225.
本文引用 [3]
24
WANG F LI G Y MA W,et al.Permafrost warming along the Mo’he-Jiagedaqi section of the China-Russia crude oil pipeline[J].Journal of Mountain Science201916(2):285-295.
本文引用 [1]
25
魏智,金会军,张建明,等.气候变化条件下东北地区多年冻土变化预测[J].中国科学:地球科学201141(1):74-84.
WEI Z JIN H J ZHANG J M,et al.Prediction of permafrost changes in Northeastern China under a changing climate[J].Scientia Sinica(Terrae)201141(1):74-84.
本文引用 [1]
26
王国尚,俞祁浩,郭磊,等.多年冻土区输电线路冻融灾害防控研究[J].冰川冻土201436(1):137-143.
WANG G S YU Q H GUO L,et al.Prevention and control of freezing and thawing disasters in electric transmission lines constructed in permafrost regions[J].Journal of Glaciology and Geocryology201436(1):137-143.
本文引用 [2]
27
母梅,牟翠翠,刘和斌,等.北半球热融湖塘分布及其甲烷排放潜力[J].冰川冻土202345(2):535-547.
MU M MU C C LIU H B,et al.Spatial distribution and methane emission potentiality from thermokarst lakes in the Northern Hemisphere[J].Journal of Glaciology and Geocryology202345(2):535-547.
本文引用 [1]
28
GUO L YU Q H YOU Y H,et al.Evaluation on the influences of lakes on the thermal regimes of nearby tower foundations along the Qinghai-Tibet Power Transmission Line[J].Applied Thermal Engineering2016102:829-840.
本文引用 [1]
29
王卫东,崔强,韩杨春,等.高寒地区输电线路锥管板条装配式基础抗冻拔性能试验研究[J].防灾减灾工程学报202242(3):542-552.
WANG W D CUI Q HAN Y C,et al.Experimental investigation on frost resistance of assembled foundation with cone tube and slab of transmission line in alpine region area[J].Journal of Disaster Prevention and Mitigation Engineering202242(3):542-552.
本文引用 [1]

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国家电网有限公司科技项目(5200-202230098A-1-1-ZN)

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